Title :
Quadrotor aircraft attitude estimation and control based on Kalman filter
Author :
Wang, Shaohua ; Yang, Ying
Author_Institution :
Dept. of Mech. & Aerosp. Eng., Peking Univ., Beijing, China
Abstract :
Quadrotor, as one type of unmanned aircraft vehicles, has gained increasing interests in control area, partially due to its simple aerodynamics and complex dynamics. In this work, a quadrotor system has been constructed with commercial off-the-shelf products. The sensors of inertial measurement unit are micro-electro-mechanical system, whose errors can be analyzed in an auto regressive model. A new attitude estimation scheme based on Kalman filter is proposed, which conducts separate data fusion tasks in a short period and a long period. The proposed attitude sensing method has been validated using the experimental system. In addition, a double-gain proportional differential controller has been designed to regulate attitude dynamics. A satisfactory control performance has been achieved in some test cases.
Keywords :
Kalman filters; PD control; aerodynamics; attitude control; autonomous aerial vehicles; autoregressive processes; control engineering computing; control system synthesis; error analysis; microsensors; mobile robots; robot dynamics; sensor fusion; Kalman filter; aerodynamics; aircraft attitude control; aircraft attitude estimation; autoregressive model; complex aircraft dynamics; data fusion task; double-gain proportional differential controller; error analysis; inertial measurement unit; microelectromechanical system; quadrotor aircraft; sensors; unmanned aircraft vehicle; Attitude control; Estimation; Kalman filters; Mathematical model; Micromechanical devices; Noise; Real-time systems; AR model; Kalman filter; Quadrotor; attitude estimation; double-gain PD controller; hover control;
Conference_Titel :
Control Conference (CCC), 2012 31st Chinese
Print_ISBN :
978-1-4673-2581-3
